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Mechanism of Filopodia Formation01:39

Mechanism of Filopodia Formation

3.1K
Filopodia are thin, actin-rich cellular protrusions that play an important role in many fundamental cellular functions. They vary in their occurrence, length, and positioning in different cell types, suggesting their diverse roles.
Their main function is to guide migrating cells during normal tissue morphogenesis or cancer metastasis by recognizing and making initial contacts with the extracellular matrix. However, they can also act as stationary cell anchors or help to establish communication...
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Mechanism of Lamellipodia Formation01:31

Mechanism of Lamellipodia Formation

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Cells migrating in response to external stimuli form lamellipodia, which are thin membrane protrusions supported by a mesh of linked, branched, or unbranched actin filaments. These actin filaments interact with myosin motor proteins, creating the dynamic actomyosin complex within the cytoskeleton. Contractility, or the ability to generate contractile stress, is inherent to the actomyosin complex. It helps cells detect the stiffness of the surrounding ECM and exert contractile force for...
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Cell Migration01:09

Cell Migration

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Cell migration, the process by which cells move from one location to another, is essential for the proper development and viability of organisms throughout their life. When cells are not able to migrate properly to their ordained locations, various disorders may occur. For example, disruption in cell migration causes chronic inflammatory diseases such as arthritis.
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Actin Polymerization and Cell Motility01:13

Actin Polymerization and Cell Motility

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Actin is a family of globular proteins that are highly abundant in eukaryotic cells. It makes up approximately 1-5% of total cell protein concentration. Actin monomers polymerize to form a complex network of polarized filaments, the actin cytoskeleton, that plays a crucial role in many cellular processes, including cell motility, division, endocytosis, and metastasis of cancer cells.
Actin cytoskeleton dynamics can produce pushing, pulling, and resistance forces that help the cell to migrate....
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Cell Polarization by Rho Proteins01:21

Cell Polarization by Rho Proteins

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Cell polarity is the asymmetric distribution of cellular and membrane components, making one side of the cell different from the other. This polarity is essential to many processes such as embryogenesis, axon migration, glucose transport across epithelial cells, and directional cell migration. A migrating cell responds to intracellular or extracellular signals via molecular cascades that reorganize the actin cytoskeleton to establish this polarity. In these cells, the Rho family proteins Cdc42,...
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Chemotaxis and Direction of Cell Migration01:21

Chemotaxis and Direction of Cell Migration

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Cells can detect chemical cues in their environment and reorganize the cytoskeleton to migrate toward them or away from them. This directional migration, called chemotaxis, is essential during embryogenesis and development, immune response, tissue repair and regeneration, and reproduction. These chemical cues can either attract or repel the cell's movement. For example, axon development is determined by a combination of chemoattractants and chemorepellents that direct the growing axon...
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Updated: Jan 15, 2026

Traction Microscopy Integrated with Microfluidics for Chemotactic Collective Migration
10:53

Traction Microscopy Integrated with Microfluidics for Chemotactic Collective Migration

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細胞モデルとしてのドロップレット:化学的グラデント誘発の方向性フィルポディア形成

Sanjana Krishna Mani1, Laurie Lazinski2, Samuel G Birrer1

  • 1Department of Chemistry, The Pennsylvania State University, University Park, Pennsylvania 16802, United States.

Journal of the American Chemical Society
|October 15, 2025
PubMed
まとめ
この要約は機械生成です。

人工細胞は化学信号に反応して フィロポディアを形成することで 細胞の行動を模倣します この油と水の溶液は 制御された成長を示し 生命のような素材のデザインに 洞察を与えます

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Polydimethylsiloxane-polycarbonate Microfluidic Devices for Cell Migration Studies Under Perpendicular Chemical and Oxygen Gradients
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Assessment of Dictyostelium discoideum Response to Acute Mechanical Stimulation
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Assessment of Dictyostelium discoideum Response to Acute Mechanical Stimulation

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関連する実験動画

Last Updated: Jan 15, 2026

Traction Microscopy Integrated with Microfluidics for Chemotactic Collective Migration
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Polydimethylsiloxane-polycarbonate Microfluidic Devices for Cell Migration Studies Under Perpendicular Chemical and Oxygen Gradients
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Assessment of Dictyostelium discoideum Response to Acute Mechanical Stimulation
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Assessment of Dictyostelium discoideum Response to Acute Mechanical Stimulation

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科学分野:

  • 柔らかい物質の物理
  • 化学工学
  • バイオミメティック素材

背景:

  • 細胞は環境刺激に反応して ダイナミックな自己形成を行い フィロポディアのような構造を形成します
  • 細胞の感知と反応を 人工システムで複製することは 生命の起源を理解し 先進的な材料を開発する鍵です

研究 の 目的:

  • オイル・イン・ウォーター・エミュルションにおける人工フィロポディアの形成と指向された成長を調査する.
  • 細胞の環境感知と 形を変える能力を模倣する 人工システムを設計する

主な方法:

  • 化学信号に対する 細胞反応をモデル化するために 油と水のエムルションを使いました
  • インターフェイス現象による人工フィロポディア形成の段階的なメカニズムを分析した.
  • ホフメイスターシリーズとアミノ酸から化学的グラデーションを用いた方向性フィロポディアの成長.

主要な成果:

  • エムルションは,外部の化学的グラデーションに反応して,指向的な,腕のようなフィロポディアを形成することを実証した.
  • ホフマイスター系アニオンの影響によるフィロポディアの成長 (コスモトロプからカオトロプへ) を観察した.
  • トリプトファンが成長を誘導し,ライシン/アルギニンがそれを退避し,細胞の行動を反映した.

結論:

  • この研究は,人工エムルションにおける細胞感知とフィロポディアの形成を成功裏に再現した.
  • 化学的シグナルに反応する 誘導的な成長の仕組みを 理解できるようになりました
  • 高度な応用のための 反応性のあるリアルな素材の創出の可能性を広げています